p53 controls a powerful stress response and is a quintessential tumor suppressor. The discovery of p63 and p73, two p53 family members, provoked much speculation about their individual and collective functions. However, while a strong consensus exists that both genes play a major role in cancer, current data is conflicting whether their nature is tumor suppressive, oncogenic or in some context both. Although their function in development was immediately apparent from gene ablation studies, delineating their exact role in cancer remains elusive due to a lack of clear genetic data in humans and mice. Due to a second internal promoter and alternative splicing, p63 and p73 are complex bipolar genes giving rise to multiple isoforms that can simplistically be viewed as """"""""Two Opposing-Genes-in-One"""""""". Moreover, in sharp contrast to the ubiquitous mutational alteration of p53, p63 and p73 are characterized by a virtual absence of inactivating mutations, and instead exhibit aberrant expression of specific isoforms in tumors. This grant aims at elucidating the in vivo role of both genes in specific oncogenic contexts and is based on two premises. First, normal tissues exhibit a striking specificity for tissue types and isoforms in their p63 and p73 expression, an important fact that up to now received little attention, yet likely holds the key to a clearer understanding of these two genes in cancer. Second, global p63 and p73 KO mice (missing all isoforms) can be very informative, since by canceling all isoforms, the biologically dominant function among the two opposing classes of proteins within a specific tissue and a given oncogenic stress will sort itself out and be revealed. Mindful of tissue and isoform specificity, we will use mouse genetics and cell biological in vitro studies to determine the role of p63 and p73 in specific human cancers.
Aim I Based on our preliminary data, p73 plays an autonomous role - distinct from p53 - as a genomic stability factor in primary cells, which is linked to DNA damage signaling and DNA repair. We will identify its mechanisms and targets.
Aim II The role of p73 in cancer in vivo. By generating p73 nullizygosity in existing oncogenic mouse models, we will determine whether p73 loss influences B-lymphomagenesis and carcinomas.
Aim III Based on the recent finding that TAp63 is the unique member of the p53 family that mediates DNA damage-induced apoptosis in the female germ line, we will test the hypothesis that TAp63 also protects the male germ line and is a tumor suppressor in human testicular cancers (seminomas and non-seminomas).
Aim I V We will determine whether specific classes of human B-lymphomas sustain p63 loss-of-function mutations. Also, by generating p63 heterozygosity in existing oncogenic mouse models, we will determine whether p63 loss influences B- lymphomagenesis and breast cancer.

Public Health Relevance

The p53 gene controls a powerful stress response and is a quintessential tumor suppressor in human cancers. There is ample evidence to suggest that two related genes, called p63 and p73, also play crucial roles in human cancer. Using well characterized, physiologically relevant mouse models, we will define the precise role of these genes in the development and progression of several cancers, including lymphoma, breast and testicular cancer. These data will provide prognostic markers and possibly targets for therapeutic intervention.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA093853-08
Application #
7806553
Study Section
Cancer Molecular Pathobiology Study Section (CAMP)
Program Officer
Watson, Joanna M
Project Start
2002-01-14
Project End
2013-04-30
Budget Start
2010-05-01
Budget End
2011-04-30
Support Year
8
Fiscal Year
2010
Total Cost
$314,296
Indirect Cost
Name
State University New York Stony Brook
Department
Pathology
Type
Schools of Medicine
DUNS #
804878247
City
Stony Brook
State
NY
Country
United States
Zip Code
11794
Holembowski, Lena; Kramer, Daniela; Riedel, Dietmar et al. (2014) TAp73 is essential for germ cell adhesion and maturation in testis. J Cell Biol 204:1173-90
Yallowitz, A R; Alexandrova, E M; Talos, F et al. (2014) p63 is a prosurvival factor in the adult mammary gland during post-lactational involution, affecting PI-MECs and ErbB2 tumorigenesis. Cell Death Differ 21:645-54
Alexandrova, E M; Talos, F; Moll, U M (2013) p73 is dispensable for commitment to neural stem cell fate, but is essential for neural stem cell maintenance and for blocking premature differentiation. Cell Death Differ 20:368
Alexandrova, E M; Petrenko, O; Nemajerova, A et al. (2013) ?Np63 regulates select routes of reprogramming via multiple mechanisms. Cell Death Differ 20:1698-708
Hofstetter, Gerda; Berger, Astrid; Berger, Regina et al. (2012) The N-terminally truncated p53 isoform ?40p53 influences prognosis in mucinous ovarian cancer. Int J Gynecol Cancer 22:372-9
Vaseva, A V; Yallowitz, A R; Marchenko, N D et al. (2011) Blockade of Hsp90 by 17AAG antagonizes MDMX and synergizes with Nutlin to induce p53-mediated apoptosis in solid tumors. Cell Death Dis 2:e156
Li, D; Marchenko, N D; Moll, U M (2011) SAHA shows preferential cytotoxicity in mutant p53 cancer cells by destabilizing mutant p53 through inhibition of the HDAC6-Hsp90 chaperone axis. Cell Death Differ 18:1904-13
Beyer, Ulrike; Moll-Rocek, Julian; Moll, Ute M et al. (2011) Endogenous retrovirus drives hitherto unknown proapoptotic p63 isoforms in the male germ line of humans and great apes. Proc Natl Acad Sci U S A 108:3624-9
Li, Dun; Marchenko, Natalia D; Schulz, Ramona et al. (2011) Functional inactivation of endogenous MDM2 and CHIP by HSP90 causes aberrant stabilization of mutant p53 in human cancer cells. Mol Cancer Res 9:577-88
Holembowski, Lena; Schulz, Ramona; Talos, Flaminia et al. (2011) While p73 is essential, p63 is completely dispensable for the development of the central nervous system. Cell Cycle 10:680-9

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